koala teaching resources a4 - goods€¦ · koala creek opened in spring 2019 and is home to a...
TRANSCRIPT
Activity Pack
LEARNING with
LONGLEAT
Koala Creek
Koala Creek opened in Spring 2019 and is home to a number of Australian animal species.
In addition to the animal areas there is also the opportunity to look into our Eucalyptuspreparation room and to see one of the crates that the koalas travelled in from Australia. Within the exhibit, there are educational graphics panels, which cover:
A video presentation shows the koalas’ journey and the importance of the work being done to help the species.
Enthusiastic keepers, based in Koala Creek, are more than happy to answer questions and tell you more.
For younger audiences, a storybook is available in the shops around the park called, ‘Welcome to Longleat, Dennis’. It tells a story of Dennis, our male koala, as he makes his way around Longleat to his new home, interacting with other animals along the way.
Koala Creek at Longleat
• Southern koala
• Hairy-nosed wombat
• Long-nosed potoroo
• Macleay’s spectre stick insect
• Information about marsupials
• Types of koalas and where they come from
• Koala and wombat adaptations (including replica koala skull)
• Eucalyptus species
• How koalas are a� ected by climate change
• Our work with the International Koala Centre of Excellence (IKCE)
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Visiting Koala Creek with your students is a great way to bring their curriculum work to life. It is particularly good for areas of the science curriculum for KS1, KS2and KS3; including adaptation, grouping animals and environmental change.
If you would like advice planning a visit to Koala Creek, or to fi nd out how it could link with your planned topics, please get in touch [email protected]
Marvellous Marsupials
What is a marsupial? Marsupials are a group of mammals characterised by an unusually short pregnancy; where females typically have a pouch within which their young develop. Koalas, wombats and potoroos are all marsupials. Other marsupials include kangaroos, possums and wallabies. The majority of mammals in Australia are marsupials. Some marsupials are also found in other parts of the world such as the Americas and New Guinea.
Despite often being referred to as ‘koala bears’, koalas are not bears, they are marsupials. It is due to their teddy bear-like appearance that they were fi rst thought to be bears and many people continue to think they are.
Marsupial young are referred to as joeys. A newborn koala joey is just 2cm long. They are born blind, deaf and use touch as well as smell to fi nd their way to their mother’s pouch. To help with this their forelimbs and head are more developed than the rest of their body. They move with swimming movements through their mother’s fur. Once in the pouch, they will grow and develop for about six months. After that, they ride around on their mother’s back until a year old, only returning to the pouch to suckle milk.
In Koala Creek there is a ‘Marvellous Marsupials’ interpretative panel that the students can interact with.
Koala Creek is home to most of the marsupials we have at Longleat but you could set your students the challenge of looking for one more – wallabies in Family Farmyard.
Whilst at Longleat…
In the classroom…
How many animals?Talk to the class about how many di� erent types of animal they think there are
in the world (some scientists estimate 30 million!). Explain that to make it easier,
scientists have sorted them into di� erent groups – classifi ed them. How you
explain this and the terminology you use will depend on the age of your students.
Sorting animals into groups
Print and laminate a number of photos of animals, include 10 x invertebrates, 4 x
mammals (include koala) 4 x birds, 4 x reptiles, 4 x amphibians, 4 x fi sh. The animals
you pick will allow you to di� erentiate the activity. For KS3 students you could
include an egg laying mammal such as a platypus. A turtle often causes confusion,
because of its behaviour; students will often put it in with amphibians rather than
correctly identifying it as a reptile.
The majority of the world’s species are invertebrates (with no backbone) so fi rst
ask the students to divide the photos into two groups: those with bones and those
without. Use the terms vertebrate and invertebrate. Invertebrates are then divided
into many di� erent divisions, however the vertebrates can be divided into fi ve;
• Mammals – feed their young on milk, majority have hair or fur, majority give
birth to live young
• Birds – have beaks, covered in feathers, lay hard-shelled eggs
• Reptiles – covered in scales, lay soft-shelled eggs
• Amphibians – have moist or slimy skin, jelly-like eggs that need to remain moist
to survive and not dry out, majority have lifecycle that requires water
• Fish – have scales, have gills to breathe in water, majority lay jelly-like eggs;
students may be familiar with sharks and know they don’t (note: there is a lot
of diversity, and several groups of animals are grouped together to be known
commonly as ‘fi sh’).
Ask your students to divide the vertebrates into fi ve groups. If they are struggling
it is often easiest to start with a bird, which is familiar. Identify why they know it is
a bird. The idea of the activity is to get them thinking about how animals can be
grouped. It is worth noting that this has changed over time and is still changing as
scientists fi nd out more about species.
Once they have had a go at sorting the photos into vertebrate groups, talk to
them about how these groups may further divide e.g. reptiles into snakes/lizards,
crocodiles, tortoises/turtles. Highlight that the mammal group splits into three: the
placental mammals, marsupials, egg-laying mammals. Talk in more detail with your
students about marsupials.
This can be done as a class activity or in small groups. If older students are working
in groups independently, it can help to have biological information on the back e.g;
lays soft-shelled eggs, covered in dry scales.
Marvellous Marsupials
Scientifi c name: Phascolarctos cinereus victor
Distribution: Australia, specifi cally in Victoria with a range extending west to the Eyre Peninsula in South Australia Diet: Eucalyptus leaves Habitat: Eucalyptus forests in cool temperate to tropical areas
Southern Koala
Koalas are marsupials, spending most of their time high up in the branches of trees where they can feed, rest and gain some protection fromground-dwelling predators such as dingos and domestic dogs. There are two types of koala – northern and southern. In the wild, the koalas range as far north as Queensland on the east coast of Australia, down through New South Wales, Victoria and South Australia. In Koala Creek, we have southern koalas. There are a few notable di� erences between the two types of koala.
Size: Male southern koalas measure around 78cm, whereas male northern koalas are smaller at around 70cm. They are also much heavier, weighing in at around 12kg – nearly twice that of male northern koalas which weigh closer to 6.5kg.
Fur: Northern koalas have darker, grey fur compared to the lighter southern koalas. Southern koalas’ fur is also longer and thicker than their northern counterparts.
Animals adapt in all sorts of ways to help them survive in a particular environment. The di� erences seen in the southern koalas are thought to be adaptations to keep them warm during the colder winters experienced in the south of the country.
Koalas eat leaves from Eucalyptus trees. In fact, it’s pretty much all they eat. They get almost all the water they need from the leaves too. Eucalyptus leaves are toxic to most other herbivores and low in nutrients. Koalas need to eat enough to get the energy they require. A fully grown koala can munch its way through 500g of leaves every single day and conserve energy by sleeping for around 20 hours a day. Even when they are awake, you could be forgiven for thinking they are asleep, as they
don’t move around very much. It is likely they evolved to eat Eucalyptus,
although it is nutritionally poor, as it is constantly available (being evergreen) and because there are very few competitors for it.
Australia, specifi cally in Victoria with a range extending west
forests in cool temperate to tropical areas
re marsupials, spending most of their time high up in the branches of trees where they can feed, rest and gain some protection fromground-dwelling predators such as dingos and domestic dogs. There are two types of koala – northern and southern. In the wild, the koalas range as far north as Queensland on the east coast of Australia, down through New South Wales, Victoria and South Australia. In Koala Creek, we have southern koalas. There are a few notable di� erences between the two types of koala.
Male southern koalas measure around 78cm, whereas male northern koalas are smaller at around 70cm. They are also much heavier, weighing in at around 12kg – nearly twice that of male northern koalas which weigh closer to 6.5kg.
Northern koalas have darker, grey fur compared to the lighter southern koalas. Southern koalas’ fur is also longer and thicker than their northern counterparts.
Animals adapt in all sorts of ways to help them survive in a particular environment. The di� erences seen in the southern koalas are thought to be adaptations to keep them warm during the colder winters experienced in the south of the country.
Students should be encouraged to observe koala features and discuss why they look like they do. Encourage them to use the interpretive graphic panels to fi nd out more. They can see if they can spot the di� erences between the southern and northern koala and also take a close look at a replica koala skull. Can they see the adaptations mentioned on the real koalas e.g. double ‘opposable’ thumbs?
Can your students work out which koala is which? In Koala Creek there are large images of each of the koalas. Ask your students to pick a koala and then try and work out who it is?
In the wild, researchers have used the pattern of pink on the underside of a koala’s nose to tell them apart, as this is unique to each individual.
In the classroom…
Following a class discussion, ask your students to label the adaptations
the koala has, related to its habitat and the food it eats, on the outline
provided in this pack. Labels are also provided that can be copied or
stuck onto the outline. This could be done before or after a visit.
Take some time to investigate the Eucalyptus on display
Visit other animals that are arboreal (live in the trees) e.g; what do they have in common with the koala?
Ask your students to draw animal hands and feet as they go around Longleat. Can the students explain why they look the way they do, depending on how the animals need to use them; koalas grip, wombats dig, sea lions swim.
Whilst at Longleat…
In order to cope with the harsh, arid habitat where they live, southern hairy-nosed wombats are adept at water conservation. They’re so good, that they get all the water they need from their food and do not need to drink.
One of the ways they conserve water is by excreting as little water as possible. Unusually, wombat poo is in fact cube-shaped. Research is ongoing as to exactly why this is and how they do it! One suggestion is that it is connected to the dry environment and the need to squeeze as much water out as possible. In captivity, it is less often as cube-shaped as seen in the wild, possibly because the wombats have access to a plentiful supply of water.
Recent research investigating wombat intestines found that they were more irregularly shaped compared to that of a pig and had two distinct grooves.
There are three di� erent species of wombat in Australia: the bare-nosed (or common wombat), the southern hairy-nosed and the northern hairy-nosed. Here at Longleat we have southern hairy-nosed wombats. It’s quite fitting that wombats have a home here at Koala Creek because, believe it or not, a koala is a wombat’s closest living relative.
Wombats are nocturnal, emerging from their burrows at night to feed. They are grazers, feeding predominantly on grasses. They have rodent-like teeth and very strong jaws that grip and tear the grasses they eat.
Wombats dig burrows with powerful front claws and, like most other marsupials, have a pouch to carry their young. Their pouch opens backwards, that way the joey doesn’t get covered in dirt when the adult is digging holes. A wombat’s underground burrow can be made up of several interconnecting tunnels and chambers sometimes reaching 30m in length. Their burrows are designed so perfectly that even when the air temperature above ground is unbearably hot or cold, the temperature in the burrow remains at a constant 26° C in summer and 14°C in winter.
Southern Hairy-nosed WombatScientifi c name: Lasiorhinus latifrons
Distribution: From southern New South Wales to south-eastern Western AustraliaDiet: Grasses Habitat: Semi-arid areas of grassland, open plains, shrub land, savanna and open woodland
In the classroom…
Following a class discussion, ask your students to label the
adaptations the hairy-nosed wombat has, related to its habitat and
the food it eats, on the outline provided in this pack. Labels are also
provided that can be copied or stuck onto the outline. This could be
done before or after a visit.
Students should be encouraged to observe wombat features and discuss why they look like they do. Encourage them to use the interpretive graphic panels to fi nd out more.
Visit other animals that dig e.g; aardvarks, armadillo and rabbits. What do they have in common with the wombat?
Visit other herbivores. How do they feed? How do they compare with wombats depending on what type of plant material they feed on? For example, white rhinos are also grazers and have a big wide mouth for eating grasses, a gira� e uses its long tongue to browse leaves o� trees.
Whilst at Longleat…
Scientifi c name: Potorous tridactylus
Distribution: Patchy distribution throughout south-eastern Australia and Tasmania Diet: Predominately fungi (specifi cally tru� es) but also invertebrates such as insects and plant material such as rootsHabitat: Shrubland, coastal scrub, heathland, forest, woodland and rainforest
Charles Darwin described the long-nosed potoroo as, “an animal, as big as a rabbit, but with the figure of a kangaroo.” A fitting description, given this small marsupial belongs to a family often referred to as ‘rat-kangaroos’. As its name suggests, this species has a long, tapering nose, perfect for sni� ng out its favourite food (tru� es) as it hops around the forest floor at night.
Although the long-nosed potoroo is not as well known or charismatic as a koala, it is a very important species. Within its habitat, it performs some essential roles. Firstly, when digging for fungi, they turn over the soil which aerates it and improves the soil condition. Their other role is in spreading essential fungal spores.
Long-nosed Potoroo
One study found that potoroos ate over 60 di� erent species of fungi. This means that they spread common, but also rarer species, so the health of the forest and the survival other wildlife relies on them. Potoroo populations are declining in many areas and over time this will impact the whole ecosystem.
On the roots of many plants live species of fungi known as mycorrhizal fungi. The plant supplies them with food and they help the plant absorb more nutrients and moisture from the soil. This is common for species of Eucalyptus tree.
The importance of potoroos
Many of these fungi produce fruit below the ground (rather than produce mushrooms above ground).
Invertebrates such as dung beetles then bury the droppings in the soil, allowing new fungi to grow. The potoroos move around to di� erent parts of the forest, spreading the spores as they go.
moisture from the soil. This is common for species of
The attractive smell from these fruit (tru� es) encourages potoroos to dig them up and eat them.
The spores of the fungi survive the journey passing through the potoroos’ body, and end up in their droppings.
In the classroom…
Introducing the long-nosed potoroo
Have your students seen or heard of a potoroo before?
Can they draw a picture of what it might look like, perhaps
using Darwin’s description?
If they have a photo, can they describe it for a friend to draw?
Potoroos and the forest
Can they draw a diagram/sequence events of the relationship
between potoroos and fungi?
Compare with seed dispersal in plants which also rely on
animals, e.g; berries. You could expand to look at other
methods such as wind dispersal.
Find the potoroos
It can be tricky to see the potoroos at fi rst. They often hide away resting or sleeping in the day as they are nocturnal. A favourite place is under the foliage in the fi rst outdoor koala area so take a look there.
Whilst at Longleat…
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Wombat adaptations
Koala adaptations
Continuously growing teeth as they are worn down by tough grasses
Very strong jaws that allow them to grip and tear grasses
Backwards facing pouch so the joey doesn’t get covered in dirt when the mother is digging holes
Stout legs for digging
Broad paws with strong, blunt claws for digging
Sharp claws to aid climbing
Pad and extra thick fur on their bottoms to provide cushioning
Double ‘opposable’ thumbs on their front paws and a single thumb on their hind paws they use for grooming
Special back teeth that grind leaves into a fi ne paste
Backbone that helps them nestle comfortably into the forks of trees
Adaptation Labels:
KoalaWombat
Increased atmospheric CO2levels reduce the quality of Eucalyptus leaves
Increase in frequency and intensity of droughts
Nutrient shortage for koalas
Koalas descend from trees in search of water/new habitat
Risk offorest fire
Malnutrition and starvation
Vulnerable to predators and road tra�c accidents
Di�cult forkoalas toescape
Food supply destroyed
What is happening?
Koalas and climate change
Why are koalas particularlyat risk?Koalas are true habitat and food specialists. They only inhabit Eucalyptus forests, and only eat a very small selection of the 600+ species of Eucalyptus.
Do koalas have any other threats?Koalas also have the additional threats of habitat destruction and the spread of disease.
Can koalas adapt to the changes?To adapt, koalas would need to eat more or become even more selective in the Eucalyptus they eat. Both of these bring additional challenges. The ability to adapt is linked to genetic variation, which, in koala populations is low. Therefore koalas have a limited capacity to adapt to rapid human induced climate change. Scientists are not confi dent they can adapt, so we need to act.
Is it too late?It is not too late for the koala. The species although threatened, can be saved from extinction. The Australian Government and wildlife organisations are working towards this. The International Koala Centre of Excellence (IKCE) is one of these, conducting research into understanding and conserving this iconic species.
Worsening climate e� ects are inevitable due to greenhouse gases already emitted but strong and timely targets to reduce emissions are needed to stop this accelerating. Governments and international organisations can set these targets, but they can only be achieved by changes in our behaviour.
Koalas are one of ten species identifi ed by the International Union for Conservation of Nature (IUCN) to highlight the impacts of climate change.
‘Koalas are experiencing malnutrition as Eucalyptus leaves decline in nutrient richness. They highlight e� ects of elevated CO2 levels on plants and on the animals that rely on them for food.’
IUCN Species and climate change: More than just the Polar Bear
How can we help?It may be that your students are very knowledgeable about climate change issues, but if not, how they learn about them is important. Often talking about conservation issues can leave children feeling powerless or frustrated. Many factors in their lives and in the world around them are not under their control. Conservation education is important but it should inspire children to learn about wildlife and the amazing planet we live on, and not focus solely on the negatives.
When discussing causes of climate change, particularly with younger children, focus on those that they can infl uence. Air pollution, from energy generation and emissions from di� erent forms of transport, is a big one. Many positive actions can be taken to make a di� erence. A few are listed below that students can do for themselves.
In the classroom…
Ask the students to think about what uses electricity at school and at
home. Do they know where the electricity comes from? Can they research
renewable and non-renewable sources?
Create a pledge board; it could be with a Eucalyptus forest background.
Each child has their own koala cut out that they add to the board with their
pledge on, ‘I am saving koalas by…’
If you want to raise funds for koala conservation you can support the newly
established International Koala Centre of Excellence.
Saving/not wasting energy
Turn o� lights not being used
Turn o� the TV (and other devices) rather than leaving them on standby when nobody is using them
Unplug chargers from the socket (they still draw electricity when plugged in)
Put on a jumper rather than asking for the heating to be turned on or up
Don’t leave the fridge door open for a long time
Cutting down vehicle emissions
Walking, scooting or cycling on short journeys
Walking or cycling to school
For older students, using the bus or sharing lifts with friends rather than everyone travelling separately
There are many websites with helpful tips for doing your bit in the fi ght against climate change. Two particularly aimed at children are:
kidsagainstclimatechange.co
natgeokids.com/uk/discover/geography/general-geography/what-is-climate-change
You may want to consider a di� erent set of actions that you could do at school.
The International Koala Centre of Excellence (IKCE) was established by the South Australian Government as an organisation to lead vital research into the understanding of koalas. IKCE has a team of scientists and ambassadors that work together to support koala conservation. Longleat’s Viscount Weymouth, Ceawlin Thynn is one of the organisation’s patrons.
As part of their role, IKCE carry out and promote research into the biology, management and conservation of koalas enabling them to provide information and educate. They hope to provide learning and training opportunities and connect national researchers. From their work they can lead on the development and implementation of strategies for the sustainable management of koalas and their habitat.
To do their work they need to raise funds to support the research projects. As an organisation, Longleat helps to fund their work. Our koalas also act as a further research population. Our keepers keep daily records which are extremely detailed even down to recording the weight of their poo.
International Koala Centre of Excellence
To fi nd out more about IKCE you can visit their website koalacentre.org
Koalas
Where did our koalas and wombats come from?
Why do koalas have a pouch?
What do they eat?Do they all look
the same?
Why do they look the way
they do?
Are there any songs that have koalas in them?
What is South Australia like? Where is Australia?
Marsupials
What other animals live in Australia?
Growth and change
Journeys and adventures
Eucalyptus
Climate change – what can we do to help?
Why is their noses so big? What other animals have
large noses?
Map out journeys
Read stories about journeys
Write stories about a journey
Senses AdaptationsFood and feeding
What do humans use Eucalyptus for? What other uses do we get
from plants?Koalas, like humans, are individuals, can you tell them apart?
Are koalas a� ected by the way we live our lives?
Planning a cross curricular project on koalas